We shouldn't use the word phase for this.

Polarity is closer to the true.

Real phase through different signal paths can vary as much as you have seen and NO they can never be IN PHASE through out the whole frequency range.

Phase and Frequency are inherently tied together and change through out the frequency range of things like speakers and distortion units and EQ's ...

Actually, since you have 3 versions of the same signal, you aren't talking polarity (unless one channel is inverted from the others). What you are trying to do is align the delays among the three signals. You can do that with time-aligning all three waveforms on a zero crossing of a particular transient.

Once you do that, the phase between any two of those signals will be a measure of the difference in frequency responses of the signal chain (e.g the AKG and the DI, the AKG and the Rode, the DI and the Rode). You can't phase-align at all frequencies, as Kev says, because there is a phase difference amongst these channels.

and sometimes those delays may actually be technically correct ...
the time it takes to get to the distant OH mics for example.

multitrack recording is all a bit of a fake anyway and often there are no absolutes ... just choices.

Grammys have be won using a variety of techniques ... and rules etc ...

^^^ yep. If you start time-aligned, then at least you can correlate the delay you use with the sound you hear (if you are curious). Gotta apologize, in my real job I have to worry about time-aligning up to 40 underwater microphones. If you don't do that first, and try to combine (i.e. 'mix') them, you get junk and that's a bad thing.

in my real job I have to worry about time-aligning up to 40 underwater microphones.

Oh I've gotta hear more about this!

yeah
... me too

40 mics underwater !!
That's a hell'of'a water polo match ?

I've worked in the Anti-Submarine Warfare industry for 30 years. If I told you any more, I'd have to kill you! :D

Suffice to say, we have the same problems as in recording: time-alignment of signals, preamplification of nanovolt audio signals, high dynamic range issues, A/D conversion quality (incl. Sigma-Delta), digital signal processing designs, mixed-signal processing (how to keep analog clean with DSP devices around), phase and amplitude equalization, driving cables w/o loss of signal fidelity, etc.

Pretty much all of the concepts translate to the audio recording and processing biz. But, you guys need to (and do) keep me on my toes - sometimes what we do in my biz doesn't make sense here.

dpd wrote: ... If I told you any more, I'd have to kill you! :D

cool ... 8)

With the recent earthquake stuff happening around the world I had figured the answer was going to be about seismic and tsunami type monitoring ...

Never saw the sonar thing coming and yet ... It probably was the obvious pick.

tell us more ... I won't tell anyone ... :D

sorry, Kev - I can't... Back in the 70's we used to make big (and I mean BIG) buoys for NOAA that gathered oceanographic data. I don't know who makes those now, but that's where (I think...) some of the tsunami data was gathered.

Sorry to hijack this thread.

Cooooooool! Thanks for sharing my Indiana brother!

yep
double coool